Infinite Composites Secures $1,6 Million US Army Contract, to Develop Conformable Fuel Tanks for Hydrogen Storage
Infinite Composites Secures $1,6 Million US Army Contract, To develop conformable fuel tanks for hydrogen storage.
Infinite Composites Inc. signed a contract for a $1.6 million small business innovative research (SBIR) direct to phase II contract by the US Army to develop conformable tanks for future hydrogen-powered vehicles.
Hydrogen is becoming an attractive alternative fuel source for both military and commercial vehicle applications as a replacement for fossil fuels. The Department of Defense has created several initiatives to increase funding to develop new and improved hydrogen technologies for military vehicles including aircraft, ground support, and marine applications.
Infinite Composites’ proposal was selected to focus on improving the storage technologies for hydrogen fuel, specifically, the shape of the storage container.
Hydrogen is stored at high pressures, usually between 350-700 bar (5,000-10,000 psi) for vehicle applications. Compressing hydrogen to these pressures allows for more fuel to be stored. Typically hydrogen fuel tanks are cylindrical in design and shape, sometimes spherical, to allow for this pressure to be evenly distributed. However, traditional form factors aren’t necessarily the best shape for many vehicle designs.
The proposed solution for conformable tanks could revolutionize the way hydrogen is stored and transported in military and civilian applications, making it more efficient and effective. Allowing the hydrogen fuel tanks to be placed in more strategic locations in the vehicle, such as the wing of an aircraft.
Matt Villarreal, CEO and Co-Founder of Infinite Composites said:
These tanks will be manufactured using 90 percent additive manufacturing processes and are designed to be lightweight, using non-cylindrical geometries, making them easier to transport and use in a variety of different environments.
“They are made of advanced composite materials that leverage nano-scaled reinforcements, allowing for greater strength and durability while maintaining a lightweight design.”
Infinite Composites will work closely with partner Dr. Ranji Vaidyanthan, head of the Next Generation Materials Lab, at Oklahoma State University-Tulsa to develop a conformable hydrogen tank that meets the strict standards and requirements of the military.
The team previously developed a similar technology for compressed natural gas (CNG) applications through research funded by the National Science Foundation (NSF) and the Oklahoma Center for the Advancement of Science and Technology (OCAST). Additionally, the proposal has drawn interest from commercial clients such as Skydweller Aero and Empirical Systems Aerospace (ES Aero) who would utilize the conformable hydrogen vessels for their future vehicle designs.
Infinite Composites has selected Skydweller as an initial commercial integration partner. ESAero is the United States distributor for Intelligent Energy’s lightweight hydrogen Fuel Cells and is also interested in integrating Infinite Composite tanks to advance the capabilities of hydrogen sUAS.The contract with the Army demonstrates Infinite Composites’ ability to develop innovative solutions that meet the needs of its customers on Earth and beyond.